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The mole (symbol: mol) is the SI base unit that measures an amount of substance. The mole is a counting unit. One mole contains Avogadro\'s number (approximately 6.02214×1023) entities (atoms, molecules, elementary particles).Official BIPM definition
A mole is much like "a dozen" in that both are absolute numbers (having no units) and can describe any type of elementary object (object made up of atoms). The mole\'s use, however, is usually limited to measurement of subatomic, atomic, and molecular structures; tradition and its magnitude compared to more common units make it impractical for other uses.
In practice, one often measures an amount of the substance in a gram-mole, which is the quantity of a substance whose mass in grams is equal to its formula weight. Thus a gram-mole for Carbon-12 has a mass of 12 grams, while a gram-mole of water has a mass of 18.016 grams. The entity counted is usually an atom (as in C) or a molecule (as in H2O, molecular formula weight = 2 H atoms + 1 O atom ≈18).
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A mole is the amount of substance of a system, which contains as many elementary entities as there are atoms in 0.012 kilogram (or 12 grams) of carbon-12, where the carbon-12 atoms are unbound, at rest and in their ground state.Official SI Unit definitions The number of atoms in 0.012 kilogram of carbon-12 is known as the Avogadro constant, and is determined empirically. The currently accepted value is 6.02214279(30)×1023 mol-1 (2007 CODATA).
According to the SI, the mole is not dimensionless, but has its very own dimension, namely "amount of substance", comparable to other dimensions such as mass and luminous intensity. (2006) "Introduction", The International System of Units (SI), 8 (in English), International Bureau of Weights and Measures, 13-14. Retrieved on 2007-02-09. (By contrast, the SI specifically defines the radian and the steradian as special names for the dimensionless unit one.) (2006) "SI Units", The International System of Units (SI), 8 (in English), International Bureau of Weights and Measures, 28. Retrieved on 2007-02-09. The SI additionally defines the Avogadro constant as having the unit reciprocal mole, as it is the ratio of a dimensionless quantity and a quantity with the unit mole. However, if in the future the kilogram is redefined in terms of a specific number of carbon-12 atoms (see below), then the value of Avogadro\'s number will be defined rather than measured, and the mole will cease to be a unit of physical significance.http://www.iop.org/EJ/article/0026-1394/42/2/001/met5_2_001.pdf
The relationship of the atomic mass unit (uThe symbol AMU for atomic mass unit was replaced by the symbol u (unified atomic mass unit) in 1961. Before 1961 the symbol amu stood for different masses in chemistry and physics.) to Avogadro\'s number means that a mole can also be defined as: That quantity of a substance whose mass in grams is the same as its formula weight. For example, iron has a relative atomic mass of 55.845 u, so a mole of iron has a mass of 55.845 grams. This notation is very commonly used by chemists and physicists.
Scientists and engineers (chemical engineers in particular) sometimes measure amount of substance in units of gram-moles, kilogram-moles, pound-moles, or ounce-moles; these measure the quantity of a substance whose mass in grams, kilograms, pounds, or ounces (respectively) is equal to its formula weight. The SI mole is identical to the gram-mole.
When the mole is used to specify the amount of a substance, the kind of elementary entities (particles) in the substance must be identified. The particles can be atoms, molecules, ions, formula units, electrons, photons or other particles. For example, one mole of water is equivalent to 18.016 grams of water and contains one mole of H2O molecules, but three moles of atoms (two moles H and one mole O). Whereas a mole of electrons is the Faraday constant, ca. 96500 [C·mol-1]. One mole photons is called an Einstein and is 1240 eV/λnm.[citation needed] The thermal Energy R*T has the unit joule per mole, due to the definition of the gas constant R. A short summary with simple calculations is provided here http://www.life.uiuc.edu/crofts/bioph354/units_and_dimensions.html.
When the substance of interest is a gas, the particles are usually molecules. However, the noble gases (He, Ar, Ne, Kr, Xe, Rn) are all monoatomic, that is each particle of gas is a single atom and only Van der Waals forces act between them. An ideal gas has a molar volume of 22.4 litres per mole at STP (see Avogadro\'s Law).
A mole of atoms or molecules is also called a "gram atom" or "gram molecule", respectively[citation needed].
The name mole is attributed to Wilhelm Ostwald who introduced the corresponding German term (Mol) in 1893.Wilhelm Ostwald, Hand- und Hilfsbuch zur ausführung physiko-chemischer Messungen (1893), p. 119. The term first appeared in English (as mol) in an 1897 translation of another German text.[ http://books.google.com/books?id=mx8JAAAAIAAJ Georg Helm, The Principles of Mathematical Chemistry: The Energetics of Chemical Phenomena, trans. by J. Livingston R. Morgan (New York: Wiley, 1897)], p. 6 It is an abbreviation for molecule (German Molekül), which is in turn derived from Latin moles "mass, massive structure". He used it to express the gram molecular weight of a substance. So, for example, 1 mole of hydrochloric acid (HCl) has a mass of 36.5 grams (atomic masses Cl: 35.5 u, H: 1.0 u).
Prior to 1959 both the IUPAP and IUPAC used oxygen to define the mole, the chemists defining the mole as the number of atoms of oxygen which had mass 16 g, the physicists using a similar definition but with the oxygen-16 isotope only. The two organizations agreed in 1959/1960 to define the mole as such:
This was adopted by the ICPM (International Committee for Weights and Measures) in 1967, and in 1971 it was adopted by the 14th CGPM (General Conference on Weights and Measures).
In 1980 the ICPM clarified the above definition, defining that the carbon-12 atoms are unbound and in their ground state.
As with other SI base units, there have been proposals to redefine the kilogram in such a way as to define some presently measured physical constants to fixed values. One proposed definition of the kilogram is:
This would have the effect of defining Avogadro\'s number to be precisely NA = 6.0221415×1023 elementary entities per mole, and, consequently, the mole would become merely a unit of counting, like the dozen.
Another proposed definition of NA is:
This has the convenient properties of being a perfect cube, and of being near the current experimental bounds of measurement.http://www.americanscientist.org/template/AssetDetail/assetid/54773
The mole is useful in chemistry because it allows different substances to be measured comparably. Using the same number of moles of two substances, both amounts have the same number of molecules or atoms. The mole makes it easier to interpret chemical equations in practical terms. Thus the equation:
can be understood, as "two moles of hydrogen plus one mole of oxygen yields two moles of water."
Moles are useful in chemical calculations because they enable the calculation of yields and other values when dealing with particles of different mass.
Number of particles is a more useful unit in chemistry than mass or weight, because reactions take place between atoms (for example, two hydrogen atoms and one oxygen atom make one molecule of water) that have very different weights (one oxygen atom weighs almost 16 times as much as a hydrogen atom). However, the raw numbers of atoms in a reaction are not convenient, because they are very large; for example, one mL of water contain over 3.34×1022 molecules.
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